A fingerprint model for inhomogeneous ink–paper layer systems measured with micro‐x‐ray fluorescence analysis
Identifieur interne : 001E78 ( Main/Exploration ); précédent : 001E77; suivant : 001E79A fingerprint model for inhomogeneous ink–paper layer systems measured with micro‐x‐ray fluorescence analysis
Auteurs : Wolfgang Malzer [Allemagne] ; Oliver Hahn [Allemagne] ; Birgit Kanngiesser [Allemagne]Source :
- X‐Ray Spectrometry [ 0049-8246 ] ; 2004-07.
Abstract
Nowadays, micro‐x‐ray fluorescence analysis has become an established tool for the non‐destructive investigation of art objects. However, as these types of sample often forms complex and inhomogeneous layer systems, the quantitative evaluation of the measurements is far from a standard routine. In this paper a fingerprint model is described, which we developed to discriminate between different iron‐gall inks of historical manuscripts or compositions. Fundamental parameter methods are used to take self‐attenuation, interference from the paper background and diffusion of the ink into the paper into account. The capability of the method to contribute to the solution of archaeometric problems is exemplified by the investigation of an ancient composition. Finally, the restrictions of the model and possible improvements are discussed. Copyright © 2004 John Wiley & Sons, Ltd.
Url:
DOI: 10.1002/xrs.676
Affiliations:
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<front><div type="abstract" xml:lang="en">Nowadays, micro‐x‐ray fluorescence analysis has become an established tool for the non‐destructive investigation of art objects. However, as these types of sample often forms complex and inhomogeneous layer systems, the quantitative evaluation of the measurements is far from a standard routine. In this paper a fingerprint model is described, which we developed to discriminate between different iron‐gall inks of historical manuscripts or compositions. Fundamental parameter methods are used to take self‐attenuation, interference from the paper background and diffusion of the ink into the paper into account. The capability of the method to contribute to the solution of archaeometric problems is exemplified by the investigation of an ancient composition. Finally, the restrictions of the model and possible improvements are discussed. Copyright © 2004 John Wiley & Sons, Ltd.</div>
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